Stable Isotope Constraints on Marine Productivity Across the Cretaceous-Paleogene Mass Extinction

The effects of the Cretaceous-Paleogene (K/Pg) mass extinction (similar to 66 Ma) on marine primary and export productivity remain debated. We studied changes in carbon and nitrogen cycling in eight neritic and upper bathyal sections with expanded K/Pg boundary clay layers in the western Tethys and...

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Bibliographic Details
Published in:Paleoceanography and Paleoclimatology
Main Authors: Sepulveda, Julio, Alegret, Laia, Thomas, Ellen, Haddad, Emily, Cao, Changqun, Summons, Roger E.
Format: Report
Language:English
Published: AMER GEOPHYSICAL UNION 2019
Subjects:
Cretaceous-Paleogene
mass extinction
carbon cycling
marine productivity
carbon isotopes
nitrogen isotopes
K-T BOUNDARY
TUNISIAN CONTINENTAL-SHELF
DEL GREDERO CARAVACA
TERTIARY BOUNDARY
EL-KEF
BENTHIC FORAMINIFERA
STEVNS-KLINT
PLANKTONIC-FORAMINIFERA
ATMOSPHERIC CO2
ORGANIC-MATTER
Geology
Oceanography
Paleontology
Geosciences
Multidisciplinary
Planktonic foraminifera
Online Access:http://ir.nigpas.ac.cn/handle/332004/27793
https://doi.org/10.1029/2018PA003442
Description
Summary:The effects of the Cretaceous-Paleogene (K/Pg) mass extinction (similar to 66 Ma) on marine primary and export productivity remain debated. We studied changes in carbon and nitrogen cycling in eight neritic and upper bathyal sections with expanded K/Pg boundary clay layers in the western Tethys and northeastern Atlantic Ocean, by measuring stable carbon isotopes of bulk carbonate (delta C-13(carb)) and organic matter (delta C-13(org)), nitrogen isotopes in bulk organic matter (delta N-15), and selected compound-specific carbon isotopic records (delta C-13(lipid)). Negative carbon isotope excursions (CIEs) in delta C-13(carb), delta C-13(org,) and delta C-13(lipid) are temporally and spatially heterogeneous as well as decoupled from each other, suggesting that factors affecting the delta C-13 of dissolved inorganic carbon, as well as isotopic fractionation during carbon fixation across the K/Pg, are more complex than commonly assumed. The negative CIEs in delta C-13(org) and delta C-13(lipid) at each site are smaller in amplitude and shorter in duration than those in delta C-13(carb), but in most sections both carbon pools recovered to preboundary conditions within the time of deposition of the boundary clay layer (<10(3)-10(4) Kyr) or shortly thereafter. This rapid recovery is supported by limited delta N-15 data, which mostly suggests moderate or minor changes in redox conditions (except in Denmark), marine productivity, and phytoplanktonic nitrate utilization in the earliest Danian. Our results indicate that carbon cycling and primary productivity in neritic and upper bathyal regions recovered to preboundary levels faster (<10(4) Kyr) than in oceanic regions (10(5)-10(6) years), likely sustained by resilient noncalcifying phytoplankton with resting stages, consistent with modeling and proxy studies. Plain Language Summary Sixty-six million years ago, at the boundary between the Cretaceous and Paleogene Periods (K/Pg boundary), a meteorite impacted the Earth during a time of active volcanism causing the mass extinction of marine and terrestrial species. Despite decades of research, the consequences of the mass extinction to marine photosynthesis and the cycling of carbon in the ocean remain contentious. We investigated the light and heavy stable isotopes of carbon preserved in rocks of ancient seafloor along continental margins of the western Tethys and northeastern Atlantic Oceans to establish for how long the cycling of carbon may have been disrupted. Our results indicate that the response of marine productivity and carbon cycling following the impact was heterogenous for thousands and tens of thousands of years but that it recovered to pre-K/Pg boundary levels hundreds of thousands of years earlier than open ocean regions. We suggest that resilient phytoplankton without carbonate skeletons living along continental margins may have recolonized surface waters relatively quickly after this mass extinction event.

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